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Titlebook: Nano and Biotech Based Materials for Energy Building Efficiency; F. Pacheco Torgal,Cinzia Buratti,Volodymyr Ivanov Book 2016 Springer Inte

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書目名稱Nano and Biotech Based Materials for Energy Building Efficiency
編輯F. Pacheco Torgal,Cinzia Buratti,Volodymyr Ivanov
視頻videohttp://file.papertrans.cn/661/660612/660612.mp4
概述Maximizes reader insights into the energy consumption of.buildings and how increasing their energy efficiency through nano- and biotech.materials can reduce emissions, improve competitiveness and crea
圖書封面Titlebook: Nano and Biotech Based Materials for Energy Building Efficiency; F. Pacheco Torgal,Cinzia Buratti,Volodymyr Ivanov Book 2016 Springer Inte
描述.This book presents the current state of knowledge on nanomaterials and their use in buildings, ranging from glazing and vacuum insulation to PCM composites. It also discusses recent applications in organic photovoltaics, photo-bioreactors, bioplastics and foams, making it an exciting read while also providing copious references to current research and applications for those wanting to pursue possible future research directions..Derek Clements-Croome, Emeritus Professor in Architectural Engineering, University of Reading (From the Foreword).Demonstrating how higher energy efficiency in new and existing buildings can help reduce global greenhouse gas emissions, this book details the way in which new technologies, manufacturing processes and products can serve to abate emissions from the energy sector and offer a cost-effective means of improving competitiveness and drive employment..Maximizing reader insights into how nano and biotech materials – such as aerogel based plasters, thermochromic glazings and thermal energy adsorbing glass, amongst others – can provide high energy efficiency performance in buildings, it provides practitioners in the field with an important high-tech tool
出版日期Book 2016
關(guān)鍵詞Biotechnology; Building Energy Efficiency; Eco-efficient Construction; Nanotechnology; Sustainable Devel
版次1
doihttps://doi.org/10.1007/978-3-319-27505-5
isbn_softcover978-3-319-80155-1
isbn_ebook978-3-319-27505-5
copyrightSpringer International Publishing Switzerland 2016
The information of publication is updating

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Nanogel Windows for Energy Building Efficiency,anostructured porous material with very low thermal conductivity (about 0.018?W/m?K for translucent granular aerogel at room temperature) and excellent acoustic insulation. It is ideal for energy saving in buildings, also due to its good optical transparency. The characteristics of the raw material
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Nanotech Based Vacuum Insulation Panels for Building Applications,l conductivity value for a VIP can be as low as 0.002–0.004?W/(mK) depending on the core material. Normally, declared average values accounting for thermal bridge effects and ageing during e.g. 25?years are to be given, typical an effective thermal conductivity value between 0.007 and 0.008?W/(mK) f
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Nanomaterial-Based PCM Composites for Thermal Energy Storage in Buildings,one-third to one-quarter of energy being produced globally. In the spectrum of techniques available to cater the building cooling and heating load demands, there has been a continuous quest toward latent thermal energy storage (LTES) systems for achieving energy redistribution requirements in buildi
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,Performance of Semi-transparent Photovoltaic Fa?ades,of buildings. The research presented focuses on developing a methodology able to quantify the building energy demand reduction provided by these novel constructive solutions. At the same time, the design parameters of the STPV solution are analyzed to establish which of them have the greatest impact
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